DocumentCode
1071655
Title
Communication Using Antennas Fabricated in Silicon Integrated Circuits
Author
Lin, Jau-Jr ; Wu, Hsin-Ta ; Su, Yu ; Gao, Li ; Sugavanam, Aravind ; Brewer, Joe E. ; O, K.K.
Author_Institution
Univ. of Florida, Gainesville
Volume
42
Issue
8
fYear
2007
Firstpage
1678
Lastpage
1687
Abstract
The feasibility of integrating compact antennas and required circuits for implementing wireless interconnections in foundry digital CMOS technologies has been demonstrated. A 3-mm long zigzag dipole antenna on a 20-Omega-cm substrate should have efficiency up to approximately 25% at 24 GHz and cost 1-2 cents. These antennas can be used to implement a radio for 100-kb/s communication up to about 10 m. By lowering the operation frequency to 5.8 GHz and using a monopole structure, which occupies approximately 30% more area, the communication range can be increased by three times or more. This technology, as well as in a true single-chip radio, can be used for intra- and inter-chip data communication, intra- and inter-chip clock distribution, beacons, radars, RFID tags, and contactless high-frequency testing.
Keywords
CMOS digital integrated circuits; dipole antennas; integrated circuit interconnections; monolithic integrated circuits; RFID tags; beacons; bit rate 100 kbit/s; compact antennas; contactless high-frequency testing; digital CMOS technologies; frequency 5.8 GHz; interchip clock distribution; interchip data communication; intrachip clock distribution; intrachip data communication; radars; silicon integrated circuits; single-chip radio; size 3 mm; wireless interconnections; zigzag dipole antenna; CMOS digital integrated circuits; CMOS technology; Costs; Data communication; Dipole antennas; Foundries; Frequency; Integrated circuit interconnections; Integrated circuit technology; Silicon; CMOS; data communication; monopole; on-chip antenna; silicon; wireless;
fLanguage
English
Journal_Title
Solid-State Circuits, IEEE Journal of
Publisher
ieee
ISSN
0018-9200
Type
jour
DOI
10.1109/JSSC.2007.900236
Filename
4277869
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